ESD nMOSFETs in Advanced Bulk FinFET Technology With Dual S/D Epitaxy

In this work, the electrostatic discharge (ESD) reliability of the OFF- and ON-state NMOS field-effect transistors in a bulk FinFET technology are investigated. The impacts of source and drain epitaxy influenced by the gate pitch (GP) and the gate length ( ${L}_{g}$ ) are studied. In the OFF-state NMOSFET, which is known as grounded-gate NMOS (ggNMOS), the large GP introduces nonuniform epitaxy on source and drain, which cause high power density localization in device. The large ${L}_{g}$ effectively helps the ESD performance of ggNMOS in ways of better turn-on and contact current uniformity. The ON-state NMOSFET as an active power-rail clamp is also studied in 3-D TCAD simulations. The device shows little difference to transient responses, while the clamping voltage can be different with ${L}_{g}$ and GPs. With the same gate space, the short ${L}_{g}$ device has a lower clamping voltage and ON-resistance, which reduces oxide breakdown risk and achieves better ESD performance.